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结晶态和非晶态五氧化二铌纳米颗粒对CHO-K1细胞的细胞遗传毒性

Cyto-genotoxicity of crystalline and amorphous niobium (V) oxide nanoparticles in CHO-K1 cells.

作者信息

Schardosim Raíne Fogliati De Carli, Cardozo Tatiane Rocha, de Souza Ana Paula, Seeber Allan, Flores Wladimir Hernandez, Lehmann Maurício, Dihl Rafael Rodrigues

机构信息

Laboratory of Genetic Toxicity and Cellular Toxic-Genetics Analysis, Graduate Program in Molecular and Cellular Biology Applied to Health, Lutheran University of Brazil (ULBRA), Avenida Farroupilha, 8001, 92425-900, Canoas, RS, Brazil.

Research Group on Nanostructured Materials, Federal University of the Pampa, Campus Bagé, Avenida Maria Anunciação Gomes de Godoy, 1650, 96413-172, RS, Brazil.

出版信息

Toxicol Res (Camb). 2022 Aug 26;11(5):765-773. doi: 10.1093/toxres/tfac054. eCollection 2022 Oct.

DOI:10.1093/toxres/tfac054
PMID:36337238
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9618107/
Abstract

Niobium (V) oxide nanoparticles (NINPs) have been widely and increasingly applied in various health products and industrial processes. This merits further study of their toxicity. Here, we investigated the potential of NINPs to induce DNA damage, cytotoxicity, and chromosome instability in cultured CHO-K1 cells. NINPs were physico-chemically characterized. As assessed by comet assay, crystalline and amorphous NINPs were genotoxic at the highest concentrations evaluated. The cytokinesis-block micronucleus assay demonstrated that a 24-h treatment with NINPs, for the crystalline and the amorphous samples, significantly reduced the nuclear division cytotoxicity index. In addition, a 4-h treatment period of crystalline NINPs increased micronucleus (MNi) frequencies. MNi, nucleoplasmic bridges and nuclear buds were detected after exposure of the cells for 24 h to crystalline NINPs. In the amorphous sample, chromosome instability was restricted to the induction of MNi, in the 24-h treatment, detected at all tested concentrations. The fluorescence and dark field microscopy demonstrated the uptake of NINPs by CHO-K1 cells and an intracellular distribution outlining the nucleus. Our data advance understanding of the cytotoxic and genotoxic effects of NINPs and should be taken into consideration when setting up guidelines for their use in industrial or health products.

摘要

氧化铌(V)纳米颗粒(NINPs)已被广泛且越来越多地应用于各种健康产品和工业过程中。这值得对其毒性进行进一步研究。在此,我们研究了NINPs在培养的CHO-K1细胞中诱导DNA损伤、细胞毒性和染色体不稳定的可能性。对NINPs进行了物理化学表征。通过彗星试验评估,结晶态和非晶态NINPs在评估的最高浓度下具有遗传毒性。胞质分裂阻滞微核试验表明,对于结晶态和非晶态样品,用NINPs处理24小时可显著降低核分裂细胞毒性指数。此外,结晶态NINPs处理4小时可增加微核(MNi)频率。细胞暴露于结晶态NINPs 24小时后检测到MNi、核质桥和核芽。在非晶态样品中,染色体不稳定仅限于在24小时处理中在所有测试浓度下均检测到的MNi诱导。荧光和暗场显微镜显示CHO-K1细胞摄取了NINPs,并呈现出勾勒细胞核的细胞内分布。我们的数据增进了对NINPs细胞毒性和遗传毒性作用的理解,在制定其在工业或健康产品中使用的指导方针时应予以考虑。

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